Performance and working principle of ultra-high resolution microscope
Microscope technology after a long period of development, coupled with recent years, the physics of the world one after another major scientific research progress, finally, in 2008, the development of microscopy in the history of the new achievements - ultra-high resolution fluorescence microscope for scientists to develop. It is predicted that it will become a good helper for biologists.
Ultra-resolution optical microscope adopts a new generation of ultra-high resolution technology, i.e. solid-state hemispherical superlens imaging technology, which breaks through the limit of optical diffraction resolution of traditional optical microscopes and enables the lateral resolution of the microscope to reach 50 nm. through this imaging technology, users can get ultra-high resolution color images and retain all the advantages of optical microscopes - fast, simple, non-destructive, complete, and true color.
The addition of a solid-state hemispherical superlens unit to the 100X water immersion objective increases the horizontal resolution from 200nm to 50nm, which is equivalent to the actual effect of the 400X objective.
It adopts structured illumination microimaging technology with a resolution of up to 100nm, and provides both 3D-SIM and 2D-SIM imaging modes, as well as ultra-fast wide-field imaging and TIRF imaging, which significantly improves the temporal and spatial resolution of imaging and makes ultra-high resolution imaging of living cells a reality. Teachers and students in our university can use this instrument to better understand the life process and disease mechanism, observe the localization and distribution of organelles, functional proteins and other fine structures, thus enhancing the research level of related disciplines in our university.
